James D. Bauer scite author profile

James D. Bauer

5Publications

8Citation Statements Received

20Citation Statements Given

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Affiliations

Program for Appropriate Technology in Health, Peace Harbor Hospital

Publications

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Design of a Novel, Adjustable Flow Rate, Reusable, Electricity-Free, Low-Cost Syringe Infusion Pump

Guelig

Bauer

Wollen

et al. 2017

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We present a proof-of-concept design and preliminary data to demonstrate a novel syringe infusion pump that is low cost, nonelectric, reusable, and adjustable. This device addresses the need for infusion therapy in low- and middle-income countries (LMIC), where intermittent electrical power precludes the use of conventional electronic infusion pumps and limited financial resources make high costs of disposable infusion pumps impractical. Our design uses a pneumatically pressurized, hydraulic (air over oil) drive piston coupled to a closed-circuit flow restriction to drive a syringe plunger at a constant velocity, thus providing a constant volumetric flow rate to the patient. The device requires no proprietary or precision consumables, significantly reducing treatment costs compared with other methods. The highly adjustable device provides constant flow rates across the range of 0.5–8 mL/h when used with a 30-mL syringe. The user interface is simple and intuitive; the hardware is robust and portable. This novel technology platform has broad applications in addressing priority health needs in LMIC.

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Use of Modeling to Identify Vulnerabilities to Human Error in Laparoscopy

Funk

Bauer

Doolen

et al. 2010

Journal of Minimally Invasive Gynecology

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User-Centered Design: Developing the RELI Delivery System – a Low-Cost, Non-Electric, Pneumatic Infusion Pump

Abu-Haydar¹,

Katuntu²,

Bauer³

et al. 2021

MDER

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Purpose Infusion pumps are the preferred method for intravenous delivery of drugs and fluids, and an essential tool in health facilities. Their high cost, complexity and reliance on electricity pose serious challenges to wide-spread use, availability and access in low- and middle-income countries. PATH developed the RELI Delivery System (RELI), a low cost, non-electric infusion pump to address these challenges. Input collected from fifty-nine newborn and maternal care providers and from seven national level decision makers in Uganda was used to guide product development, further informing product design requirements, and optimal design features to best serve their needs. Methods A formative evaluation following a mixed methods approach including focus group discussions (FGDs), stakeholder interviews, and observations was used to collect data from end users. Results Stakeholders provided critical input on the RELI prototype design features, safety criteria, and contexts of use of infusion pumps, as well as recommendations for design refinements. Infusion systems are greatly needed but not readily available and their use is limited to well-resourced higher level facilities, even though the need is high in non-tertiary care hospital where patient volume is high, resources are scarce, power is inconsistent, and facilities are understaffed and overcrowded. Users expressed a need for an affordable and simple device with an intuitive user interface, clear instructions for use, and basic safety features. Conclusion The study provided important guidance for further design refinements based on input from respondents and confirmed the need for robust, affordable, infusion pumps that meet the requirements for use in low-resource settings.

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Plant protection and instrumentation system design description

Zgliczynski¹,

Bauer²

1987

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A functional model of the operating room

Funk¹,

Doolen²,

Botney³

et al. 2003

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James D. Bauer

Design of a Novel, Adjustable Flow Rate, Reusable, Electricity-Free, Low-Cost Syringe Infusion Pump

Use of Modeling to Identify Vulnerabilities to Human Error in Laparoscopy

User-Centered Design: Developing the RELI Delivery System – a Low-Cost, Non-Electric, Pneumatic Infusion Pump

Plant protection and instrumentation system design description

A functional model of the operating room

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